TY - JOUR
T1 - Induction of primitive pigment cell differentiation by visible light (helium-neon laser)
T2 - A photoacceptor-specific response not replicable by UVB irradiation
AU - Lan, Cheng Che E.
AU - Wu, Shi Bei
AU - Wu, Ching Shuang
AU - Shen, Yi Chun
AU - Chiang, Tzu Ying
AU - Wei, Yau Huei
AU - Yu, Hsin Su
PY - 2012/3
Y1 - 2012/3
N2 - Solar lights encompass ultraviolet (UV), visible, and infrared spectrum. Most previous studies focused on the harmful UV effects, and the biologic effects of lights at other spectrums remained unclear. Recently, lights at visible region have been used for regenerative purposes. Using the process of vitiligo repigmentation as a research model, we focused on elucidating the pro-differentiation effects induced by visible light. We first showed that helium- neon (He-Ne) laser (632.8 nm) irradiation stimulated differentiation of primitive pigment cells, an effect not replicable by UVB treatment even at high and damaging doses. In addition, significant increases of mitochondrial DNA copy number and the regulatory genes for mitochondrial biogenesis were induced by He-Ne laser irradiation. Mechanistically, we demonstrated that He- Ne laser initiated mitochondrial retrograde signaling via a Ca2+-dependent cascade. The impact on cytochrome c oxidase within the mitochondria is responsible for the efficacy of He-Ne laser in promoting melanoblast differentiation. Taken together, we propose that visible lights from the sun provide important environmental cues for the relatively quiescent stem or primitive cells to differentiate. In addition, our results also indicate that visible light may be used for regenerative medical purposes involving stem cells.
AB - Solar lights encompass ultraviolet (UV), visible, and infrared spectrum. Most previous studies focused on the harmful UV effects, and the biologic effects of lights at other spectrums remained unclear. Recently, lights at visible region have been used for regenerative purposes. Using the process of vitiligo repigmentation as a research model, we focused on elucidating the pro-differentiation effects induced by visible light. We first showed that helium- neon (He-Ne) laser (632.8 nm) irradiation stimulated differentiation of primitive pigment cells, an effect not replicable by UVB treatment even at high and damaging doses. In addition, significant increases of mitochondrial DNA copy number and the regulatory genes for mitochondrial biogenesis were induced by He-Ne laser irradiation. Mechanistically, we demonstrated that He- Ne laser initiated mitochondrial retrograde signaling via a Ca2+-dependent cascade. The impact on cytochrome c oxidase within the mitochondria is responsible for the efficacy of He-Ne laser in promoting melanoblast differentiation. Taken together, we propose that visible lights from the sun provide important environmental cues for the relatively quiescent stem or primitive cells to differentiate. In addition, our results also indicate that visible light may be used for regenerative medical purposes involving stem cells.
KW - Helium-neon laser .Visible light
KW - Melanoblast differentiation
KW - Mitochondrial biogenesis
KW - Retrograde signaling
UR - http://www.scopus.com/inward/record.url?scp=84862545910&partnerID=8YFLogxK
U2 - 10.1007/s00109-011-0822-7
DO - 10.1007/s00109-011-0822-7
M3 - 文章
C2 - 22038170
AN - SCOPUS:84862545910
SN - 0946-2716
VL - 90
SP - 321
EP - 330
JO - Journal of Molecular Medicine
JF - Journal of Molecular Medicine
IS - 3
ER -